Disclosed herein are methods and systems for detecting information related to a drug reservoir. According to one example disclosed herein, a method includes a detector feature determining an electrical property related to a coded material for a drug reservoir, wherein the coded material comprises at least one circuit. The at least one circuit may be printed onto the drug reservoir. The method further includes determining information related to the drug reservoir based at least on the determined electrical property.

An electronic vapor device is disclosed comprising a first container for storing a vaporizable material, a vaporizer component coupled to the first container, configured for vaporizing the vaporizable material, a processor coupled to the vaporizer component, configured to control the vaporizer component in response to a disposition signal, and a network access device, coupled to the processor, configured for receiving the disposition signal from a remote server.

Drug depot delivery devices and methods for delivering a drug depot to a site beneath the skin of a patient are provided. In various embodiments the device has a housing having a top housing end, and a bottom housing end. The housing defines a housing channel. The device has a drug cartridge defining a depot channel aligned with the housing channel and configured to slidably accept the drug depot. The drug cartridge has at least a first occluding device configured to occlude the depot channel at a first position such that the drug depot cannot pass through the depot channel without force applied to the drug depot sufficient to deflect the first occluding device. The bottom end of the housing has a coupling configuration for engaging a cannula. A plunger has a push rod to expel the drug depot through the occluding device and the cannula.

Anesthesia apparatus adapted for operating in one of a gas-dispensing mode and a gas-less simulation mode, and method of operating the anesthesia apparatus. A mode selection command is received from an input/output unit of the anesthesia apparatus. A control unit of the anesthesia apparatus selects one of a gas-dispensing mode and a gas-less simulation mode based on the received mode selection command. At least one gas control parameter is received from the input/output unit. When the gas-dispensing mode is selected, the control unit actuates gas dispensing means of the anesthesia apparatus based on the received at least one gas control parameter. When the gas-less simulation mode is selected, the control unit prevents actuation of the gas dispensing means, and transmits the at least one gas control parameter to a patient simulation system via a communication interface of the input/output unit.

A cell processing system includes a processor to receive a biological fluid to be processed, a controller coupled to the processor, the controller configured to operate the processor according to at least one modifiable process parameter, and at least one input coupled to the controller, the at least one input configured to receive an identifier and at least one process parameter control associated with the at least one process parameter that limits modification of the at least one process parameter if applied. The controller is configured to determine if the identifier is associated with an administrator authorization and to apply the at least one processor parameter control to the at least one process parameter if the identifier is associated with an administrator authorization.

A medical line organizer that can include multiple attachable guides for separating and visually distinguishing between attached medical line guides is provided. The guides can be attached to each other or to one or more couplers for attachment to a structure. Various identification techniques can be used to distinguish the guides from each other for identification of individual lines. Additional guides or markers with similar indicia can be placed on the lines to aid in identifying the path of a line within a particular guide.

A mobile inhaler is provided and a container for using therewith. The mobile inhaler comprises: a mouthpiece comprising at least one inhaling opening; a body element connected to the mouthpiece and comprising a housing for holding a DC power source; a power conversion unit comprising an inverter operative to convert a DC voltage provided by a DC power source, into a higher AC voltage; a nebulizer comprising an ultrasonic vibrator and a mesh, wherein the ultrasonic vibrator is activated by the AC voltage, and wherein the nebulizer is adapted to enable converting into aerosol droplets at least part of a liquid comprised in an enclosure, and the aerosol droplets to be directly inhaled from the mouthpiece; and an enclosure adapted to enable holding a liquid, and characterized in that it provides a connection to enable fluid transfer from the enclosure to the nebulizer.

A system includes a microprocessor executable verification module in a base unit and a microprocessor readable identifier of an endovascular device in a memory of the endovascular device. The microprocessor executable verification module, based on the identifier, at least one of configures the endovascular device for use and determines whether the endovascular device can be enabled for use.

The present invention pertains to an extracorporeal blood treatment device (1), preferably a hemodialysis device, hemofiltration device, or hemodiafiltration device, comprising a fluidic system (2) having a connection point (20) for adding substances, a detection arrangement (4) for detecting a flow of a substance at the connection point (20), wherein the detection arrangement is configured to generate a flow signal, when a flow of a substance is detected at the connection point (20), and a control unit (5), which is communicatively connected to the detection arrangement (4). The control unit (5) is furthermore configured to output a signal (50) in reaction to a received flow signal. The present invention furthermore pertains to a corresponding method for monitoring at least one connection point.

A breathing treatment apparatus delivers breathing gas to a user. The apparatus may be configured to comprise one or more sensors for sensing microbial growth within the apparatus.